TY - JOUR
T1 - Recognition of an antiparallel β-sheet structure of human epidermal growth factor by its receptor Site-directed mutagenesis studies of Ala-30 and Asn-32
AU - Koide, Hiroshi
AU - Muto, Yutaka
AU - Kasai, Hidefumi
AU - Hoshi, Kumiko
AU - Takusari, Hiromi
AU - Kohri, Kaoru
AU - Takahashi, Seizo
AU - Sasaki, Tetsuyuki
AU - Tsukumo, Ken ichi
AU - Miyake, Tetsuo
AU - Fuwa, Tohru
AU - Miyazawa, Tatsuo
AU - Yokoyama, Shigeyuki
N1 - Funding Information:
n~~,lo~~l~r~~cWC/n ãre g~rutert~%;l to Dr. F, lnagaki and Dr. D, Kohdu of the Tokyo MetropolitanIn stituteo f MedicalS ciencef or helpfuld iscussionT, his workw ass upportedin partb y Cirants.in-Aid 0225010a6n d 03236106 for ScientificR esearcihn PriorityA rcas from the Ministryo f EducationS, ciencea ndC ultureofJ;tpun,a nd a Grant for ‘BicdesiynR esearchP rogramf rom RlKEN to S.Y.
PY - 1992/5/4
Y1 - 1992/5/4
N2 - The Ala-30 and Asn-32 residues involved in the major antiparallel β-sheet structure of human epidermal growth factor (hEGF) were substituted with various amino acid residues, and the receptor-binding affinities of the nine variant hEGFs were determined by the use of human KB cells. The Ala-30→Arg. Ala-30→His and Ala-30→Phe substitutions drastically reduced the binding affinity, suggesting that the side chain in position 30 of Ala-30 of hEGF is required to be small for the receptor binding. The Asn-32→Asp substitution significantly reduced the binding affinity, while the Asn-32→His variant could bind to the receptor as well as to the wild-type hEGF. Therefore, it seems to be important for receptor binding that the side chain in position 32 does not have a negative charve but does have an NH group. Thus, we propose that, in the ligand-receptor complex, the receptor recognizes, on one side of the antiparallel β-sheet structure of hEGF, a wider contact area than previously suggested.
AB - The Ala-30 and Asn-32 residues involved in the major antiparallel β-sheet structure of human epidermal growth factor (hEGF) were substituted with various amino acid residues, and the receptor-binding affinities of the nine variant hEGFs were determined by the use of human KB cells. The Ala-30→Arg. Ala-30→His and Ala-30→Phe substitutions drastically reduced the binding affinity, suggesting that the side chain in position 30 of Ala-30 of hEGF is required to be small for the receptor binding. The Asn-32→Asp substitution significantly reduced the binding affinity, while the Asn-32→His variant could bind to the receptor as well as to the wild-type hEGF. Therefore, it seems to be important for receptor binding that the side chain in position 32 does not have a negative charve but does have an NH group. Thus, we propose that, in the ligand-receptor complex, the receptor recognizes, on one side of the antiparallel β-sheet structure of hEGF, a wider contact area than previously suggested.
KW - Epidermal growth factor
KW - Protein engineering
KW - Site-directed mutagenesis, Human epidermal growth factor receptor
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U2 - 10.1016/0014-5793(92)80279-P
DO - 10.1016/0014-5793(92)80279-P
M3 - Article
C2 - 1587350
AN - SCOPUS:17644444217
SN - 0014-5793
VL - 302
SP - 39
EP - 42
JO - FEBS Letters
JF - FEBS Letters
IS - 1
ER -